Thiamin biosynthesis in prokaryotes

Tp, Begley; Dm, Downs; Ealick, S. E.; Fw, McLafferty; Ap, Van Loon; Taylor, Sean V.; Campobasso, Nino; Hj, Chiu; Kinsland, Cynthia; Jj, Reddick; Xi, Jun

doi:10.1007/s002030050713

Cited by 272 publications

(271 citation statements)

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“…For clone 12, cof is most likely the gene responsible for resistance because cof is up-regulated in response to CF 3 -HMP. 2 In clones 13 and 14, either dxs or yajO could be the gene responsible for the observed antibiotic resistance. thiE is the cellular target for CF 3 -HMP, which explains the behavior of clone 15.…”

Section: Selection Of Clones Resistant To Bacimethrin or Cf 3 -Hmp-mentioning

confidence: 99%

A Genetic Screen for the Identification of Thiamin Metabolic Genes

Lawhorn

Gerdes

Begley

2004

Journal of Biological Chemistry

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A genetic screen was developed for the identification of genes related to thiamin biosynthesis and degradation. Genes conferring resistance to bacimethrin or 4-amino-2-trifluoromethyl-5-hydroxymethylpyrimidine were selected from Escherichia coli and Bacillus subtilis genomic libraries. Hits from the selection included the known thiamin biosynthetic genes thiC, thiE, and dxs as well as five genes of previously unknown function (E. coli yjjX, yajO, ymfB, and cof and B. subtilis yveN). The gene products YmfB and Cof catalyze the hydrolysis of 4-amino-2-methyl-5-hydroxymethylpyrimidine pyrophosphate to 4-amino-2-methyl-5-hydroxymethylpyrimidine phosphate. YmfB also converts thiamin pyrophosphate into thiamin phosphate.

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Section: Selection Of Clones Resistant To Bacimethrin or Cf 3 -Hmp-mentioning

confidence: 99%

A Genetic Screen for the Identification of Thiamin Metabolic Genes

Lawhorn

Gerdes

Begley

2004

Journal of Biological Chemistry

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“…In E. coli, the thiazole moiety is formed from DXP (1-deoxy-D-xylulose-5-phosphate), tyrosine and cysteine [5][6][7][8][9]. Five gene products (ThiF, ThiS, ThiG, ThiH and ThiI) are involved in this step [10][11][12][13][14] (Figure 1). The pyrimidine unit is synthesized from AIR (5-aminoimidazole ribotide), and ThiC is re-quired for pyrimidine biosynthesis [14][15][16][17] (Figure 1).…”

Section: Introductionmentioning

confidence: 99%

“…Five gene products (ThiF, ThiS, ThiG, ThiH and ThiI) are involved in this step [10][11][12][13][14] (Figure 1). The pyrimidine unit is synthesized from AIR (5-aminoimidazole ribotide), and ThiC is re-quired for pyrimidine biosynthesis [14][15][16][17] (Figure 1). Subsequently, ThiE, a thiamine phosphate synthase, couples the two ring structures of pyrimidine and thiazole to form TP [9,[17][18][19][20] (Figure 1).…”

Section: Introductionmentioning

confidence: 99%

AtTHIC, a gene involved in thiamine biosynthesis in Arabidopsis thaliana

Kong

Zhu

et al. 2008

Cell Res

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Thiamine (vitamin B1) is an essential compound for organisms. It contains a pyrimidine ring structure and a thiazole ring structure. These two moieties of thiamine are synthesized independently and then coupled together. Here we report the molecular characterization of AtTHIC, which is involved in thiamine biosynthesis in Arabidopsis. AtTHIC is similar to Escherichia coli ThiC, which is involved in pyrimidine biosynthesis in prokaryotes. Heterologous expression of AtTHIC could functionally complement the thiC knock-out mutant of E. coli. Downregulation of AtTHIC expression by T-DNA insertion at its promoter region resulted in a drastic reduction of thiamine content in plants and the knock-down mutant thic1 showed albino (white leaves) and lethal phenotypes under the normal culture conditions. The thic1 mutant could be rescued by supplementation of thiamine and its defect functions could be complemented by expression of AtTHIC cDNA. Transient expression analysis revealed that the AtTHIC protein targets plastids and chloroplasts. AtTHIC was strongly expressed in leaves, flowers and siliques and the transcription of AtTHIC was downregulated by extrinsic thiamine. In conclusion, AtTHIC is a gene involved in pyrimidine synthesis in the thiamine biosynthesis pathway of Arabidopsis, and our results provide some new clues for elucidating the pathway of thiamine biosynthesis in plants.

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“…Thiamine pyrophosphate (TPP), the biologically active cofactor, is generated by the condensation of two independently synthesized intermediates, 4-methyl-5-(␤-hydroxyethyl)thiazole (THZ) phosphate and 4-amino-5-hydroxymethyl-2-methylpyrimidine (HMP) pyrophosphate. In vivo labeling studies demonstrated that the carbon atoms in HMP were derived from the purine intermediate aminoimidazole ribonucleotide (AIR), although the biochemical details of this conversion have not been elucidated (2). Mutations causing an unconditional requirement for exogenous HMP or thiamine map to a single gene, thiC.…”

mentioning

confidence: 99%

“…Mutations causing an unconditional requirement for exogenous HMP or thiamine map to a single gene, thiC. In vivo labeling also determined the metabolic precursors to the THZ moiety, and several genes have been implicated in this synthesis (2,18). Our current understanding of the synthesis and salvage of TPP is presented in Fig.…”

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confidence: 99%

Action of the Thiamine Antagonist Bacimethrin on Thiamine Biosynthesis

2000

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Bacimethrin is an analog of the 4-amino-5-hydroxymethyl-2-methylpyrimidine (HMP) moiety of thiamine and inhibits the growth of Salmonella enterica serovar Typhimurium on a defined medium. Two classes of mutants that had increased bacimethrin resistance were isolated and characterized. Results showed that overexpression of the thi operon or specific lesions in thiD resulted in a bacimethrin-resistant phenotype. Phenotypic analyses of the thiD mutants suggested that they had a specific defect in one of the two kinase activities associated with this gene product and, further, that ThiD and not PdxK was primarily responsible for salvage of HMP from the medium.Thiamine is synthesized de novo by many bacteria. Although the general outline of the thiamine biosynthetic pathway in enteric microorganisms is known, the individual reactions in this pathway are not yet fully understood. Thiamine pyrophosphate (TPP), the biologically active cofactor, is generated by the condensation of two independently synthesized intermediates, 4-methyl-5-(␤-hydroxyethyl)thiazole (THZ) phosphate and 4-amino-5-hydroxymethyl-2-methylpyrimidine (HMP) pyrophosphate. In vivo labeling studies demonstrated that the carbon atoms in HMP were derived from the purine intermediate aminoimidazole ribonucleotide (AIR), although the biochemical details of this conversion have not been elucidated (2). Mutations causing an unconditional requirement for exogenous HMP or thiamine map to a single gene, thiC. In vivo labeling also determined the metabolic precursors to the THZ moiety, and several genes have been implicated in this synthesis (2, 18). Our current understanding of the synthesis and salvage of TPP is presented in Fig. 1.While the low cellular requirement for thiamine has complicated the detailed analysis of its biosynthetic pathway, this characteristic has made thiamine synthesis an attractive model system for dissecting the integration of metabolic pathways (25). Characterization of mutations that perturbed, but did not eliminate, thiamine synthesis has resulted in the identification of a number of loci required for optimal synthesis of this vitamin and has increased our understanding of the integration of thiamine biosynthesis with central cellular processes (1, 5, 6, 8, 10-12, 24b, 25, 27).Use of metabolic inhibitors, or analogs, has provided insight in the studies of a number of metabolic pathways, including histidine (17), folate (3), and branched-chain amino acids (19)(20)(21). Bacimethrin is a thiamine antagonist produced by grampositive bacteria, including Streptomyces albus (7) and Bacillus megaterium (29) (Fig. 1). Previous reports showed that the inhibitory effect of bacimethrin on defined medium could be overcome by exogenous addition of thiamine or the HMP moiety (7).Wild-type Salmonella enterica serovar Typhimurium strain LT2 was unable to grow on solid minimal medium in the presence of 130 nM bacimethrin, and resistant mutants arose spontaneously at a frequency of ϳ10 Ϫ7 (data not shown). Growth of the wild-type strain was restored ...

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Thiamin biosynthesis in prokaryotes

Cited by 272 publications

References 35 publications

A Genetic Screen for the Identification of Thiamin Metabolic Genes

A Genetic Screen for the Identification of Thiamin Metabolic Genes

AtTHIC, a gene involved in thiamine biosynthesis in Arabidopsis thaliana

Action of the Thiamine Antagonist Bacimethrin on Thiamine Biosynthesis

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